CA1112347A - Access module - Google Patents

Abstract

ABSTRACT OF THE DISCLOSURE
A patching module having an improved switching and monitor feature for use in a patch unit assembly. The monitor feature includes a monitor plug with monitor elements capable of directly monitoring selected leads of the circuit within the module without drawing any power from such circuit. Each module is provided with appropriate connections for an independent power source.

Description

3~`7 1 BACKGROUND OF ~IE INVENTION
The present lnvention relates generally to a channel access module for use in a patch unit assembly, and more particularly, to a channel module having an lmproved monitor plug for directly monitoring certain leads of a data transmission circuit and having an improved switching means between the respective leads of the equipment and modem.
Several types of patch unit assemblies, and in particular, digital patch unit assemblies presently exist in the prior art. Some of these assem-blies consist of a unit frame or rack in which a plurality of patching modules are disposed in side~by-side relationship. Each of ~hese patch modules is indlvidually remo~able without affecting operation of the others and each includes an access to the leads on the equipment or computer side of a data transmission circuit and an access to the leads on the modem side of a data transmission circuit. These prior art patch modules also include a switching means positioned between the equipment and the modem for either electricaily connecting their respective leads or disconnecting them so that access can be gained to the individual leads. Most of these prior art devices include suitable patch cords designed for use with the uni~ in order to patch the leads rom a designated piece of equipment to a desired modem, or vice versa. This is accomplished by inserting one plug of the patch cord into the desired equipment access opening and the other plug of the patch cord in the desired modem access opening. Insertion of such plugs into the respective access openings opens the normal data transmission circuit within the module and permits cross patching of ~he various equip~ent and modem leads.
Means are also provided in these prior art patch.madules for :
monitoring the data transmission circult between the equipment and modem.
Ac~cess for monitoring is normally provided by an appropriaté access opening in th~ front of the module panel. A monitor access plug similar to the patch plugs referred to is utiIi~ed to gain access to the da~a ~rans~ission leads and for electrically connecting such leads via a monitor plug cord to a separate .
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1 monitor power module physically separated from the module being monitored, Normallyr this monitoring power module is positioned on one end oE an array of access modules and includes a plurality of LED i.ndicator lamps and p.injack access points for the break-out or testing of cer-tain of the data transmission leads. A
typical patch unit assembly of the type described above is dis-closed in United Sta-tes Patent No. 4,037,186 issued July 19, 1977 to Palmer et al.
The p.rincipal drawback of the above described prior art devices is that they are not capable of monitoring more than one of the patch modules at any one time, A typical path unit assem-bly of the prior art contains only a single power and monitoring unit positioned to provide a monitoring function for an array ~usually about 10 to 20) of individual modular units, Accord.ingly, only one of the modular units can he monitored at any one time~ . .
A further draw~ack is that the monitor power unit positioned within the patch unit assembly takes up and reduces the space which might otherwise ~e utiliæed by ~unctioniny modular access modules~
Therefore, a need exists in the art for a patch module with a monitor feature capable oE monitoring more than one module simultaneously while a-t the same time providing increased space for such modules.
SUMMARY OF THE I~VENTION
The device of the present inven-tion overcomes the draw- -backs of the above described prior art and other prior art of : which the inventor is aware by providing an access or channel module with an improved monitoring plug which permits dir~ct mon-itoring of the data transmission circuit within the module without 3~ the need for a separate power unit or monitor module as was

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3~'7 - 1 necessary in the prior art~ This eliminates the need for an additional monitor power unit module in the path unit assem~ly and a monitor patch cord and plug to connect the leads to be monitored with such power unit. The device of the present invention also permits the simultaneous monitoring of any number of the individual channel modules. The device of the present invention also includes an improved mechanical switching mechanism which involves a wipiny tO ~-~0 :
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1 action of a spring member on a connector surface pad.
More specifically, the channel module of the present invention includes an improved monitor plug which contains a`plurality of LED indicator lamps and pin-jack access points within the plug itself for direct monitoring of certain designated leads of the data transmission circuit~` Such improved monitor plug functions without drawing any power from the data transmission circuit ltself. Rather, each of the modules is provided with lts own indcpen-dent external power source connected through the module via appropriate printed ~ -circuit leads to the monitor plug for driving the LED indicaLor lamps. Since each of the individual channel modules is provided with its own external power source, any number of such ~odules can be ~onitored simultaneously and con-tinuously. This independent power source for each module eliminates the need for a separate ~onitor power unit; therefore, the space which would normally be used by such monitor power ~mit can be utilized by additional channel modules, thus providing for a more efficient system. The advantages of the pxesent invention can also be reali~ed wlth~only the pin-jack portion of the monitor plug. With this structure, the external power source is unnecessary.
The channel module also includes an improved switching mechanism whlch includes a pair of gold plated spring elements associated~with each of 2~ the pair of equipment and modem leads for selectively connecting and disco~-necting such leads. These contact members cooperate with a similar number of gold plated wiping pads for selectively connecting and disconnecting Lhe pair of contact members in response to sliding movement of a spring-biased switching board. The wiping pads are pressed lnto ehe surface of the switching board so that their contact surface is flush with the inner surface of tile switching b~ard. The module Oe the present invention also includes an improved mating element for electrically connecting the data transmission circuit in the module with either t~e access or the ~onitor plugs. This element includes a tip portlon composed of an abrasion resistant material which substantially reduces the wiplng contact between the epoxy-gla5s circuit board and the plug con~acts and thereLore reduces the wear on such contacts. -~

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- . - : . : -1 Accordingly, a principal object of the present inventlon is to provide a channel module with an improved monitor fea~ure which eliminates the need for an additional, separate monitor power unit in the paLch unit assembly and permits the simultaneous monitoring of any number of modular units.
A~lother object of the present invention is to provide a channel module having an improved monitor plug whic~, together with the module, provides for direct monitoring of selected leads of the~data transmission ci~cuit.
A further object of the present invention is to provide a channel module with an improved monitor plug which enables direct monitoring of the data transmission circuit via LED indicator lamps and pin-jack access points.
Another object of the p~esent invention is to provide a channel module having its own power source for driving the LED indicator l~mps of the improved monitor plug.
A further object of the present invention is to provide an improved mechanical switching mechanism for selectively connecting or disconnecting the leads of the equipment and modem.
A further object of the present inventlon is ~o p~ovide a channel module having lmproved mating means for reducing wiping contact between such means and the plug contacts and thereby substantially reducing wear on such contacts O
These and other obJects of the present invention will beco~e apparent with reference to the drawings, the description of the preferred embodiment and the appended claims. I

D~SCRIPTION OF THE DRAWINGS
Figure 1 is a pictorial view of a portion of a patch unit assembly showlng three channel modules inserted therein.
Figure 2 is a front elevational view of one of the channel modules o~ the present inventionO
Figure 3 is a rear elevational view of one of ~he channel modules of the present inven~ion.

; -4-Figure 4 is a pictorial view of a patch cord utlli~ed with the patch unit assembly of the present invention.
Figure 5 is a schematic diagram illustrating the ~lectrical inter-connection between the Yarious system components sho~n in the other figures.
Figure G is a side elevational ~iew of one of the channel modules of the present invention with certain portions broken away.
Figure 7 is a cross sectional view of the channel module viewed along the section lines 7-7 of Figure 6 showing the switching mechanism in a closed position.
Figure 8 is a cross sectional view of the channel module similar to that of Figure 7 except with the switclling mechanism open.
Figure 9 is an elevational view of the LED side of ~he circuit board assembly of the improved monitor plug of the present invention.
Figure 10 is an eleva~ional end view of the circuit board assembly of the improved monitor plug of the present invention.
Figure 11 is an elevational view of the pin-jac~ side of Ehe printed circuit board assembly of the improved monitor plug of ~he present invention.
Figure 12 is a pictorial view of the improved monitor plug of ~ the present invention.
Figures 13 and 14 are detailed views of one element of the switching ~ -mechanism showing the element in a closed and open position, respectively.
Figure 15 is a cross sectional view as viewed along the section lines 15-15 of Figure 6.

Figure 16 is a detailed cross sectional view showing the improved .
mating eIement and the electrical co-mection between the module and thP
monitor plug.
:~ DESCRIPTION OF l~lE PREFERRED EMBODIMENT
Reference is first made to Figure 1 which sllows a patch unit assembly used primarlly for accessing, rearranging or substituting inter-3~0 connections between various data equ:lpment in a ne~work, such as compu~ers, and modem~s, multLplexers, etc. ~s illustrated, the patch unLt assembly . . ....

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1 includes a rack or frame designated generally by the reference numcral 10 and consists of a top panel 11 and appropriate bottom, side and rear panels (not shown) Each end of the front surface of the patch unit 10 includes a mounting flange 12 (only one of which is illustrated in Figure 1) for mounting the patch unit 10 to an appropriate housing or rack. The assembly 10 is adapted to house a plurality of chan~el access modules 14 disposed in side-by-side relatlonship w~th respect to each ot~ier. In Figure 1, three such channel modules 14 are shown in operating position within the patch unit 10. In a typical patch unit assembly of the type described herein, fourteen channel modules are contained within each unit. It is common for patch units of the type illustrated in Figure 1 to be vertically stacked one on top of the other.

In general, the function of the patch unit 10 and more particularly, the channel modules 14, is to provide electrical interconnection between certain local equipment such as a computer and a modem, to provide access ~o the various leads of the equipment and modem and to provide monitoring of the data transmissions circuits between such equipment and modem.
The function of each channel module and the array of channel modules within the patch unit can be understood best with reference to the schematic illustration of Figure 5 in which the chznnel module is illustrated schematically by the broken line 14. As shown, a piece of local equipment 44 which in some cases may be a computer is connected o~er a mutli-wire line 41 to a connector 38 at the rear of the channel module 14. The multi-wire line 41 may consist of any number of individual wires, but generally consists of at least 24 or more wires or leads. Similarly, a modem 45 is connected by a multi-wire line 42 to a rear connector 40. As with the line 41, ~he line 42 may consist of any number of wîres or leads, but usually consists of at least 24 or more such wlres. The modem 45 is also connected to a co~non carrier communications line 43 by which ~information or signals can be transmitted to and from the modem 45. ~n exte~nal power supply 39 is provided ~t tl-e rear of the challnel module for provlding power to an improved monitor plug as will be discusscd below.

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1 Within the channel module 14, the leads from the rear connector 38 are connected via the multi-wire line 46 bo~h to an equipment access opening 15 and to one side of a switch mechanism 50, while ~he leads from the connector element 40 are connected via the multi-wire line 48 to both a modem access opening 16 and to the other side of the switch 50. Both of the multi wire lines 46 and 48 represent a plurality of printed leads printed onto a circuit board as will be discussed below. The switch 50 comprises a plurality o~
separate mechanical switches, the exact number of which correspond to the number of wires or leads in the multi-wire lines 46 and 48. The switch 50 is normally biased in its closed position as illustrated in Figure 5, thereby electrically connecting ~he corresponding leads of the multi--wire lines 46 and 4S and thus the equipment 44 and modem 45. W~en the switch 50 isin its closed position, audio frequency tone signals from the common carrier communications line 43 can be converted by the modem 45 to a signal acceptable to the local equipment 44 and sent to such equipment via the channel module 14. Similarly, signals from the local equipment 44, such as a computer, may9 via the channel module 14, aend signals back through the modem 45 to the communications line 43 for transmission to a desired point.
When the switch 50 is open, the multi-wire lines 46 and 48 are :
disconnected from each other, thus permitting access to their leads at the access ope~ings 15 and 16, respectively. As will be discussed below, the switch 50 is opened by insertion of an appropriate access plug into either of the access openings 15 or 16. When an appropriate plug is inserted into the access opening 15, switch 50 is opensd and access is provided to each of the leads of the multi-wire line from the equipment 44. This permits the connection of these leads to any other desired mode~ via an appropriate p~tch cord.
Likewise, insertion of an access plug into the access opening 16 opens the switch 50~permitting access to the leads of the modem 45 and connection - to any desired computer or o~her local equipment.

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1 The channel module 14 of Figure 5 also shows a multi-wire line 49 extending between the line 48 and the monitor access opening la. This connection facilitates the monitoring of the data circuit between the equip-ment 44 and the modem 45, if the switch 50 is in its closed position, or the monitoring of the da~a circuit between the modem 45 and the other equipment to which it is connected, if the ~witch S0 is open. The power source 39 positioned between the connectors 38 and 40 is connected wi~h the monitor access opening 18 via the power source supply line 51 to provide external power to the improved monitor plug in the manner discussed below.

The specific structure of the channel module 14 is illustrat~d best in Figures 2, 3, 6, 7 and 8. As shown in Figure 2, the forward end of the channel module 14 includes three access openings 15, 16 and 18 for providing electrical access to certain circuits and leads within the module 14. The access opening 15 is associated with the equipment 44 (Figure 5) and provides access to each of the leads of such equipment via the male access element 28.
The eleMent 2~ includes a plurality of contact portions corresponding to the plurallty of equipment leads. The access opening 16 is associated with the mode~ 45 (Figure 5) and provides access to each of the leads of such modem via the maIe access element 29. The element 29, similar to the element 28, includes a~plurality of contact portions corresponding to ehe plurality of modem leads. Each of the elements 28 and 29 includes a tip composed of an abraslve resistant tip such as Nylon similar to that illustrated in Figures 15 and 16 with respect to the element 30.
.. ......... . , ,,: -Access to the leads within the access openings 15 and 16 is obtained by a patch cord plug 19 or 200 As ilIustrated in Figures 1 and 4, a typical patch~cord includes a pair of patch cord plug~ 19 and 20 and a connecting cord :
21 extending ~herebetween. The plugs L9 and 20 are adapted for insertion into ~he access open]ngs 15 and 16 for access to the leads of ~he equipl~ent and mode~, respectively. Each of the plugs l9 and Z0 includes a female receptacle :
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1 portion 22 adapted to mate wi~h the corresponding male access elements 28 and 29 in the openings 15 and 16. The plugs 19 and 20 also lnclude a guide rib or key 24 adapted to mate with the notch 25 or 26 of the access openings to insure proper alignment of the plugs and proper int~rconnection of the associated leads. A spring latch 79 is associated with each oE the plugs 19 and 20 to provide a positive locking mcchanism for rctaining the plugs 19 and 20 within the desired openings 15 and 16 and preventing accidcntal or un-intentional disconnection. The latch 79 is designed to lock behind a portion of the module 14 similar to the manner in which the monitor plug is locked in the opening 18 as~illustrated in Figure lS. As shown in Figure 1, the patch cord can be utilized to electrically interconnect the leads in any one of the equipment access openings 15 with the leads in a desired modem access opening 16 o~ vice versa.
With reference to Figure 3, the rear of the module 14 includes a connector member 38 having a plurality of male connector pins 38a for con-necting leads from the equipment or computer 44 (Figure 5) to the module 14.
A similar connector member 40 having a plurality of female connector receptacles 40a is also positioned at the rear of the module 14 for connecting leads of ~ the modem 45 (~igure 5) thereto. Between the connectors 3B and 40 is a power supply connector 39 for providing external power to the improved monitor plug in the manner described below. The connector 39 includc~ the male connector pins 39a for connecting the power source (not shown) to the module.
Referring now to Figures 6, 7 and g, the forward portion o~ the module consists of a single piece of molded plastic defining the various access open-ings. A printed circuit board 47 is connected with this forward portion by a plurality of screws 76. The printed circuit board 47 is a thin, generally rectangular element whose rearward end is connected by appropriate screws 78 to the connecting elements 38 and 40. A plurality of pairs of contact elements corresponding to the leads from the connector members 3~ and 40 are mounted in ~e circuit board 47. Each of these pai~s IAcIudes a contact element 70 electrically _g_ .

'7 l connected with a lead from the connector 40 and a contact element 71 electrically connected with a corresponding lead from the connector 38. The connection between the contacts 70 and 71 and the connector 38 and 40 is provided by the circuit elements 46 and 48, resyectively. The elements 46 and 48 are printed circuit elements which not only conn.~ct the leads from connectors 38 and 4Q
to contacts 70 and 71, but which also connect such leads to the access openings lS and 16, respectively (Figures l and 2).
A switching board 52 is positioned in sliding relationship relative to the plurality of contact elements 70 and 71 and relative to the printed circuit board 47 by a pair of spaced guide members 54 and 55. Each of the ~uide members 54 and 55 is secured to the board 47 by screws or rivets 53 and each includes a channel portion 57 to engage and guide the opposite edges of the switching board 52 during its sliding movement. The switching board 52 in-cludes a plurality of switching elements corresponding to the plurality of contact element pairs 70 and 71 Eor selectively electrically connecting or dis-connecting the associated elements 70 and 7I. The switching board 52 is moveable .
between a normal or closed position illustrated in Figures 6 and 7 in which the sw1tch1ng elements are closed and an open position as illustrated in Figure 8 in~which the switching elements are opened. When in a closed position, the switching elements electrically connect the contacts 70 and 71, whereas in an open position, ~he contac~s 70 and 71 are disc~nnected fro~ each other. The swltching board 52 is normally biased in a closed position by the spring element ' ~ 62 which ~xtends in the elongated opening 64 between thç hole 65 and the con-necting~element 61.
The particular switching elements of the present invention can best be illustrated by reference to Figures 13 and 14. As shown, each pair of ~ .
~ contact~;e1emeDts~70~and 71 is conneceed with the printed circuit board 47 by ~ .: ~ : , appropriate means. ~These contact ele~ents 70 and 71 arP, in turn, electrically connected with leads~from the modem and the equipment via the printed circuit 3~0 e1emen~s~48~nnd ~46, respectively. A pair Oe these contact elements 70 and 71 . ~: : :

1 0-- ' : -1 correspond with each of the leads from the equipment and the modem. In thestru~ture of the preferred embodiment, the channel module 14 can accommodate as many as 24 leads from both the equipment and the modem; accordingly, there are 24 pairs of contact elements 70 and 71, Each of the elements 70 and 71 ls constructed of a spring tempered copper alloy or other suitable conducting material and has a portion extending outwardly from the circuit board 47 for engagement with the underside of the switching board 52. In the preferred - structure, the contacts 70 and 71 include a gold plate spring portion extending upwardly from the circuit board 47 for biased engagement with portions of the board 52.
The underside of the swi~ching board 52 includes a pair of surface contacts 68 and 69 associated with each pair of contact elements 70 and 71.
The contact surfa~.es 68 and 69 are electrically insulated from each other by the portion 66. In Figure 13, the switching board 52 is in its normal or closed position slmilar to the position illustrated in Figures 6 and 7. In this position, both of the contact elemer.ts 70 and 71 are in contact with the surface 69, thereby electrically connecting the elements 70 and 71 and the respective leads of the equipment and modem. When the switching board 52 is ~oved toward the right as shown in Figures 8 and 14, agains~ the force of the 20 spring 62 (Figure 63, the members 70 and 71 contact the surfaces 68 and 69, respectively which are electrically insulated from each other thereby discon-necting the respective leads of the equipment and modem. In the preferred embodiment, the surfaces 68 and 69 comprise gold plated contact pads which are pressed into the surface of the switching board 52 under conditions of high ~emperature and pressure. This results in a structure in which ~he con~act surface portions of the pads 68 and 69 are flush with the inner surface of the switching board 52. The insulating portion 66 between the pads 68 and 69 is ,, a part of and~integral with the board 52.
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l The switching board 52, which is normally in a closed position, is moved to its open position by insertion o one of the patch cord plugs 19 or 20 (Figures 1 and 4) into either of the access openings 15 or 16 (Figures 1 and 2). When this is done, the forward portion of the guide rib 24 on the plug engages a tab portion 58 or 59 of the switching board 52 and moves the sarne rearwardly against the force of the ~spring 62. The plug 19 or 20 and the board 52 are locked in this position by the latch spring 79 until the same is manually released.
The circuit between the modem 45 and equipment 44 or between the modem 45 and any other equipment to which it is patched can be monitored at the ~onitor access opening 18 (Figures l, 2 and 15) by insertion of the improved monitor plug illustrated in Figures 9-12. Before describing the specific ~tructure of such plug, it should be noted that the leads from the modem 45 are electrically connected with the plurality of contact elements 94 and 95 (Figures 6 and 15) on the male element 30, thus providing monitoring access to the data transmission circuit on the modem side of the swi~ch mechanism.
The specific structure ~f one form of the improved monitoring module is shown best in Figures 9-12. Figure 12 is a pictorial view of the monitor plug while Figures 9-ll are views of the inside portion of such plug. As shown in Figure 12, the monitor plug 32 includes a plug portion 34 and a guide rib 35 for insertion into the access opening 18 and slot 27 (Figure 2), respect-ively. A latch spring 79 is disposed within a por~ion of the guide rib 35 and is designed to engage a portion of the channel module to secure the monitor plug in its fully inserted position and to prevent accidental disconnection. A
plurality of LE~ indicator points 81 and pin-jack access points 82 are also ` ~ provide~ for direct monitoring of certain of the leads to which access is provided. As shown best in Figures 10 and lS, the end of the plug portion 34 include6 a female receptacle portion 80 with a plurality of contacts 96 and 97 adapted for elec~rical engagemcnt with the corresponding contact elements 94 and 95 of the malP element 30.

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1 With reference to Fi~ures 9 and 11, the internal portion of the monitor plug 32 includes a thin, generally "T" shaped printed circuit board 83, an end portion 90 and a plurality of connector elements 89 extending between the circuit board 83 and the end 90. Each of the connectors 89 is electrically insulated from the other and each corresponds to one vf the contacts 96 or 97 (Figure 15) within the end 90. Figure 9 which shows the LED (light emitting diode) side of the printed circuit board 83 includes a plurality of LED
indicator lamps 85. These elements 85, together with a corresponding number of current sensing elements and resistor pairs, 86 and 88 (Figure 11), respectively are electrically interconnected to ~onitor the presence or absence of a current or signal in certain of the leads 94 or 95 to which monitoring access is provided without drawing any power or interfering with any signals in the data trans-mlssion circuit. Power for the LED indicators 85 is provided by the power supply 39 (Figure 6) via the power supply leads 51a and`51b. These leads are connected to two of the contacts 94 and 95 and ultimately to the LED indicator lamps 85 by the printed leads 91 and 92 shown in Figure 11 on ~he pin-jack side of the cir-cuit board 83. A variety of di~ferent types of LED lamps 85, sensing elements 86 and resistors 88 can be used in the monitor module. In the preferred embodiment, however, the indicator lamps 85 Gallium Phosphide LEDs and the detection elements 86 consist of current sensing transistors. The resistor pairs 88 consist of one 1l8 watt carbon composition, 27,000 ohm resistor and one 1/8 watt carbon composi~ion, 68 ohm resistor.
With reference now to Figure 11, the pin-jack side of ~he circuit board 83 ls shown as inciuding a plurality of pin-jack access receptacles 82 electrically conneceed with certain of the contact elements 89, and thus with certain of the leads 49 (Figures 5 and 9) of the data transmission circuit.
A pin-jack receptacle 84 is also provided on one end for access to tlle ex~ernal power soorce if desired.

, ' l As illustrated best in Flgures 9 and 11, a selecte~ number of the twenty-four leads 49 in the data transmission circuit capable of being monitored are electrically connected to the LED and the pin-jack circui~ry to permit those selected leads to be continuously monitored. These selected leads are those which are considered most important in the data transmission circuit and are designated in Figures 9 and 11 by the reference numberal 87. In the yreferred embodimenc, nine such leads can be continuously monitored wi~h the plug 32.
Figure 16 illustrates a detailed cross sectional view of the ,~
electrical connection between the contacts on the portion 30 and the contacts ln the end 90 of the monitor plug 32. The portion 30 is comprised of an extended portion of the circuit board 47, having a plurality of electrical contacts 94 and 95 disposed on each side thereof. Each of the contacts 94 and 95 is electrically eonnected with one of the twenty-four leads of the data transmission circuit or the power source leads 51a and 51b (~igure 6). The plug end 90 (Figures 9-11~ includes a plurality of internal contact elements 96 an~ 97 a~apted for electrical connection with the elements 34 and 95 to connect the leads in the patch module to the monitor module. Similar contact elements and connections exist between the male access portions 28 and 29 (Figure 2) and the,patch plugs l9 and 20 (Figures l and 4).
As shown in Figure 16, the forward end of the portion 30 i5 beveled.
This beveled portion extends rearwardly through the contact elements 94 and 95.
A coating of an abrasion resistant material lO0 is secured to th~s beveled portion to substantially eliminate wiping contact between portions of the epoxy 21ass circuit board'47 and the contacts 96 and 97. In the preferred embodiment, the portLon 100 is constructed of a Nylon material although various other abrasion resistant materials will also work satisfactorily. Wi~ll this construction, the life of the monitor plug contacts 96 and 97 is increased substantially.
~ It should be noted that only one form of monitor module is sl-own Ln the present drawings. Such module is illustrat,ed in Figures 9-12 and includes 3~17 both LED indicator lamps and pin-jack access points. Similar modules can al50 be constructed whlch include only the LED circuitry as tne monitoring means or only the pin-jack access as thc monitoring means. It should also be noted that if monitoring of leads other than the selected leads 87 is des:Lred, this can be done, as in the prior art, hy using a patc~ or monitor cord to connect all twenty-four of the leads 94 and 95 (Figure 15) to an appropriate test station ~no~ shown~.
Having described the structure of the improved channel module and monitor plug of the present invention, the operation of the same can be under-stood as fo~lows. First, the channel module 14 is inserted into the rack or housing of a patch UDit aSSelllb1y 10 as illustrated in Figure l. When so inserted, the access openings 15, 16 and 18 are disposed on the front face of the assembly to monitor the data transmission circuits within the module and to access the leads of the equipment and modem. As shown in Figure 5, the equip-~nent 44 such as a computer and the modem 45 are electrically connected with each other through the channel module 14 via the connector elements 38 and 40 a~d the switch mechanism 50. If access to either the plurality of leads from the equipment 44 or the plurality of leads from the modem 45 is desired for analysis or cross patching, a patch cord p}ug similar to that illustrated in Figure 4 is inserted into either the access opening 15 or the access opening 16.
I~ the plug is inserted into opening li; the switch mechanis~ 50 is opened thereby breaking the normal through connectionbetween the eguipment 44 and the modem 45 and providing access to all 24 leads from the equipment~ Similarly, if the patch cord plug is inserted in~o the access opening 16, the switch mechanism 50 is opened, again breaking the normal through connection between the equipment and the modem, and providing access to all 24 leads of the modem.
With this structure, tlle leads of the modem 45 can be connected with the equlp- ~ -~ent 44 by leav~ng the switch mechanism 50 in its closed position or can be electrically connected with any o~her equiRment accessible ln the array of modules by u~illzation of a patch cord. In a similar manner, the leads of '.

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1 the equipment 44 can be electrically connected to the modem 45 when the ~witch mechanism is closed or via a suitable patch cord be connected with any other modem in the patch unit assembly.
An improved monitoring means is also provid~ed which monitors selected leads on the modem side of the swit~h mechanism 50. These leads, together with an external power ~ource and the unselected leads are! connected to the access opening 18 via the multiwire line 49 and the pair of leads 51 sho~n in Figure 5.
With this s~ructure the improved monitor plug illustrated in Figures 9-12 and 15 can be utilized to directly monitor selected leads on the modem side of the switch simultaneously with any other transmission circuit in the patch unit assembly and independently of any power unit or monitor module positioned in the patch unit assembly. This is possible because sach of the channel modules 14 is provided with its own external power source which is connected at the rear of the module to the connector 39 and which is provided to the improved monitor pl~g via the leads 51a and 51b ~igure 6). I~ should be noted that since the monitor access to the 24 leads is on the modem side of the switch 50, monitoring of a data transmission circuit set up by cross patching is always ~onitored at the module containing the connection to the modem.
Although the description of the preferred embodiment has been quite specific, it is contemplated ~hat various changes could be made to the structure without deviating from the spirit of the present invention. Accordingly, it is intended that the scope of the present inventlon be dictated by the appended claims raeheF han by the descriptloD ~f the preferred embt_iment.

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Claims (13)

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows:

1. A digital patch and access module for use in a patch and access assembly having a series of said modules in side-by-side relationship comprising:
a first plurality of separate conductor leads;
a second plurality of separate conductor leads;
electrical switch means between said first plurality of separate conductor leads and said second plurality of separate conductor leads for selectively simultaneously connecting said first and second plurality of separate con-ductor leads and simultaneously disconnecting said first and second plurality of separate conductor leads;
access means for providing monitoring access to a selected plurality of said separate conductor leads;
a connection for a power source independent of said plurality of conductor leads;
a selectively removable monitor plug adapted for connection with said access means, said monitor plug including monitor means adapted for monitoring connection with said selected plurality of said separate conductor leads and means adapted for electrically connecting said power source connection and said monitor means to permit direct monitoring of said selected plurality of said separate conductor leads.

2. The patch and access module of claim 1 wherein said monitor means includes pin-jack access to said selected plurality of said separate conductor leads.

3. The patch and access module of claim 2 wherein said access means includes means providing access to said power source.

4. The patch and access module of claim 3 wherein said monitor means includes a light emitting diode (LED) for monitoring said selected plurality of said separate conductor leads.

5. The patch and access module of claim 4 where said monitor means includes pin-jack access to said selected plurality of said separate conductor leads.

6. A patch and access assembly having a plurality of the connecting apparatus of claim 1 positioned in side-by-side relationship with each other.

7. A digital patch and access assembly comprising:
a frame;
a series of independently operable digital patch and access modules positioned side-by-side with respect to each other within said frame, each of said modules including;
a first plurality of separate conductor leads;
a second plurality of separate conductor leads;
electrical switch means between said first plurality of separate conductor leads and said second plurality of separate conductor leads for selectively simultaneously connecting said first and second plurality of separate con-ductor leads and simultaneously disconnecting said first and second plurality of separate conductor leads;
access means for providing monitoring access to a selected plurality of said separate conductor leads;
a connection for a power source independent of said plurality of conductor leads;

a selectively removable monitor plug adapted for connection with said access means, said monitor plug including

Claim 7 continued....

monitor means adapted for monitoring connection with said selected plurality of said separate conductor leads and means adapted for electrically connecting said power source connection and said monitor means to permit direct monitoring of said selected plurality of said separate conductor leads.

8. The patch and access assembly of claim 7 wherein said monitor means includes pin-jack access to said selected plurality of said separate conductor leads.

9. The patch and access assembly of claim 8 wherein said access means includes means providing access to said power source.

10. The patch and access assembly of claim 9 wherein said monitor means includes a light emitting diode (LED) for monitoring said selected plurality of said separate conductor leads.

11. The patch and access assembly of claim 10 wherein said monitor means includes pin-jack access to said selected plurality of said separate conductor leads.

12. The patch and access module of claim 1 having an equal number of first and second separate conductor leads.

13. The patch and access module of claim 1 wherein said monitor plug is adapted for connection only with said access means.